SGID Silkworm Genome Informatics Database
Gene
KWMTBOMO00582
Pre Gene Modal
BGIBMGA012237
Annotation
PREDICTED:_chondroitin_sulfate_proteoglycan_4_[Amyelois_transitella]
Location in the cell
Cytoplasmic   Reliability : 1.096 Nuclear   Reliability : 1.461 PlasmaMembrane   Reliability : 1.537
 

Sequence

CDS
ATGGAGGTTATTCTAATTTTGACCATGGTAACGTTTGGATTGGCGTATGACAAAGCTTCATTTTATGGGGCGAGCTATATTTCATATCCACTTCAAGAGGCCAAAGGAATTACTGACATTAATTTTCGATTTCGAACTCATCTTTCTGATGCGCTATTGCTGCTTGCAGCTGGAAAGACTGACTATTGTATGATACGTCTTGAGAAAGGAAGACTAAAATTGAACATAAATCTTGGTGGAGGAGAAAGTGAACTATTTTCGCCCAGAGGAACTCTAAATGACAGCCAATGGCACCATGTCAATATTATTCGCCGGGAGGCTAATCTCACCATGAAGATTGATGACAGTGTTGTAAGGAAGAGATTTCCTGGAAGATTTTTTGAATTAAACATTCATTTTGGTATATTTCTCGGAGGTCAGGGTGATTTCTCTGAATTATTTTTGGGTCATATGGAAAACTTTCGTGGCTGCATGGAAGATGTATATTACAATGGGGTAAAAATTATAGAGAAGGCTAGAAGCCGCTCTGGGTCTGTACGTGTCGAGGGTGTTACATGGAATTGTGCTCCTGAATTTGATGCTGATATCAACTCAGACATTAGTTTCATTGATGAAGGAGCTTACTTGATACTACCCAAGATAAATTCCAGAGCGGGTGGACGGTGGCAAATTGAATTCAAAACAATTGCTCAAAATGCCATAGTTCTGTATAATGCTGGTGGCGGTCGTTCCGATTTTTTGGCTGTTGAAATTCTGGAAGGTGCAGTAAGAGTCAAAATGGCATGTGGACAAATACTTCACACTATGCGAGTTAACGATGGACAGTGGCATAAACTTCATTTGTTGTTCAACCCTTCACTTATTGAGTTATCTGTGGATAATATCGCAATGAGCACCCGTATCGAAAGTGGCGGTACGAGGTATTTAGATCTATCCGATTCTTTCTATCTTGGAGGTATTGAAAACGAGAAACGACAGAGAGCATTCGCTAAAGGAATCAAAGCTGCTGACTCGAGTATTATGGGCTGTATAAAACCAATAGAAGTTGATGATAAAGTATTTGGTTTACCCAGTGCAGTAGTAACATATGGTGTAAGCCCTAAATGCGTATGGTACTATCCGTGCCATGCAAACCCAGGGAACCCTCCTTGTGTGGTCCAAGCTGTGTGTGAACAGCATGGTGTTGATGATTTCACTTGTAAATGTGATTCAGACCTGTGCATAAGCCCTGATTATGCTGAAAAGTACAAGGTATTCTCAAAGTCGAGTAGCGAACTTGAACTAGTAGCCCTATACCCCCTTACTGTTCAAGAAGGCGGCGTGGCAGTTGTTACAACACAAAATATCGATGTGGTATTAGATCATCATAAGTATGGGGTCAGACCTTCAGGAGTTGTTTTTTACGTCGCACAGTCACCAATGCACGGAAGGATAGCAATCGACTTATCGTTACAGAGAAATTCACCACAGTTTAACTATGTCGAAACAGACGGCAAGACAAAACAATTTTTTACACTTTTGGATTTATCTAGAGATAAGGTGCGATATGTTCACGACGGCTCCGAAAACCATCAAGATGCTATAGTATTGGATATGGAGTTGACTCAAGAGACAAAATTCACGTTACCCAGCTATTTACAGGGCCGGAATACTTTTGTTCTGCATGTAAACGTAACGCCAGTCAACGACCCACCAGTTCTCAACTTACTGCCAGGAAAAGTGCTTAGGCTTACTCAGGGTACACGTAAAGTGATCACTTCTGACATACTGAAGGCAGAGGATCCAGACACGCTTACAGAAGACTTATTGTATACCGTTTTACACGGAAAAAACGAAGCCAACAGTGGCCACATCGAGATGTCAGGACAGCCAGTTGACTCATTCACGCAACATGATATAGATGCTGGACTGATATCATATGTACATGGCACTAATGGTGAAAAACAATTGAACAAAACTTCACTAAGGCTTACTCTGCAGGTATCTGATGGCATAGAGACCAGCGGTCCAGGTATACTTCGCATATCGATAGTACCGTTACAAGTCAGATTAGTCAACAATACCGGCTTGCAACTCGTTCACAATTCTTATGCAATCATAACAGCTGACAACCTGACTTTCGCTACTAATGCAGACGAGACCAATGTGCAAGTCAAATACGATATAGTGAAGCCTCCACAATTTGGTGTAGTAGAAAGGTTACGAGTACTGGATGGAACGTGGCAAACTGTCGATTCATTTACAAGCGAAATGGTGGCATTCGGTGCTGTTAGATATATGCATTTACTTGGAAATCCTAATCATGATGAGTTTAAATTTAAAGCATCCGTTGGATCTATACGAACGAACACATTATACGATTTTCGATTAACATTTATCAAACTCGAACTATATCAATCGATTAACGAAGAGCTAGTGCTGAACAACACTAGAGAAGCGTTTATATCGGCGCAACATCTACGATTTAAAACAAAACCGTTAGCCTTATCGAACGATCGAATTGTTTATACGATACTCCGACCACCGAAATACGGCATTCTTCATTTGTCATCCGGAAAACATCATTTACAAATTCACAATACGTTCACACAGCAAAACATCGACGCTGATCAATTATGGTATCGTTTACATAGACGTGCTTATTCGCACATACAAGATGAGTTTCATTTCGTCGTCGGAGCTACGGAATGTGAAAATATCACTGGAGTTATGATGATAAGGCACGTACCGAGCTCAATTTCATTCGATCATTCCCCGAATCGAGTGCGCACGACTTTAGAAAGACTTCAAGTGTCAGAAGGTTCTAGAATGGTCATACCAGCAACGCATTTGAACTTCAGAACCGATGTAGTAACGAATTTAATATTCAACATCACTCATTTACCGAAACACGGAAAGATTGAAGTTATAACGGATATGCTAAAGATTCTTAGAGACAACACGACATATTTTACTTTAGAAGAATTGAATTCTGACAGAGTTTATTACGCGCACGACAATTCAGAAAGTCGACACGATTCATTCCACTTCATGGCGTTGAGTCCAGAGCCCGAGGATTTCCAATATGTTGGAGTATTTCATATCGATATAATTCTTAAAAACGACAACAGCCCAGTGCGAGTTAACAACAACACATTTCACATCGTACACGGCGGCGCTAGACTTATTACAGCACGAGATTTGAGTTACACCGATGCAGATTTGGACACAAAATCTTCAGATATTGTTTACACTGTGCAGAGGTCACCGAAAGACCCACCCAACGGTGGTATATTTAGAGCTGATAATCCATCGGAGCAAATAGCGACGTTCACTCAAGACGATATTAATAAAAATTTGGTTTTGTTCAAACATCAAGGCAAAGAGTACGGGAAGCTTGCGTTTTGGGTGTCGGACGGCAGGTACGATGTTAACGGTAACTTGGAGATACAAGCATCACCGCCCTTTATAAGAATGTACCCATCAAACGGATCTATCATGGAGAATGGGAAGGCTGTGGTCATCACACCCAACGATATGCAGGTGGACACGAATATGAATTGTTTAGAGGAGGACATTCGTTATGAGGTAACTTTGGAACCGAAGCATGGCTCCATAGAAGTGGGTGAAGGTCAAGGCGCTTACACTTTCACTCAGTTAGACATAGCGGCTGGAAGAGTGGCCTACAGACACAGGGAACCCAAAACACCCTCCGATCAGTTCAGATTCAAAGTGATGTGCCTTGACACATGGGGCGAGGGAATATATACGGTAAAGATATTTCCGTCGAGCTATTGGGAACCGTTGAGGGTGCAAACTAACACACCGCTATTTGTTGAGGAATCTACAAGCGTTAATATCACCAAAGATGTCTTGGAAATTATGCATCCACAAATCGAACCTTCAAACATAATTTACAAAGTTACAGAGGGTCCAAATCATGGATGGCTCGAAATCGCTTCGACTCTTGGAAGCTTAGAACCAGAAAATCACAACGAGGAACCGATCCACACCCGAGTGTTCGATCAATCGATTATAAACTCGAATCGATTAGTCTACGTGCAATCTGGCGTCAATCGCACTCGCGACCGAATCAAAATGGACGTCACGAACGGGATTGTTTGGCTGCGTGATATAGAAATGTCAATAGTGATAATACCTGAACACTTTTACATAATGGCATCGAATTTAACTGTAGTTGAAGGTGAATCGATCAGCATGAGGCCGGAATTATTCAAAACGATTACAGATTATTATAGGGGTAAAGTTGTATCGTATAAAGTCGTTGAGAAACCAAAGTACGGAAAAATTATGATGGGAGATCAGGAGTTGAACTTGTTGCCAGTTTTAAAATTAAATTCTGGTAATATTCAGTATGTTAACGACGGTTCCGAAGAGTCATCAGATGCCGTCAAACTTGTCGCATTAACTGAAAACAATAAGGAAAGCGAACCGTTTTATATTCGTATAACTATAGTGGCCGTGAACGATGAAACTCCTATAGTAGCGGCCAATACGGGACTCTGTGTTTGGGAGGGAGGCACATTTACATTCACCAGGAGTGAGCTTTATGTCAACGATATCGATACTCCTCTAGAGAATGTGACGATACGAGTTGTCGATATAGTGTCGGGGTACATCGCTATGAAGGAAAATATCGAGAGAGCGGTCGATCACTTCACTCAGGCTGATATTGATAAAGGAAAAGTCATTTTTGTACACAAAAATGGAACAAAAGGAAAGATGATATTCAACGTGACTGACGGACTTCACGAACTCTCTAAAATTACATTCCTAATCTCGACAAAATCGGTTTCAATAAAGCTTATTAGAAAACAAAATTTACGAGTATTCCCCCTGATGAGGGAACCGCTAACCAACAATATATTGATGTCTAAATGTTCGGATCCTTCCAGAAGCATTTTGTATAAAATCGAAAGGGCACCAACTTTAGGTAGATTGATAATGTTAAACGGGGAGAATCGTCACAGATCAATAAAACAATTCACTCAACACGATCTGAACAATTCTGTTGTGTATTACGAACACACGCATCCCTTTTCCGATTTGTATACAAACGATTCATTCGTATTTACGGTTGAAACAGCACTGGCCAAGCCTCTGACCGATCAAATATTTAATATCGATATATCAGTGTCGTCCGGAGGACTGTCTAAATACGTTTACATACCGCAGATAAAGGTTCAAGAAGGCGATAAAGTACCGATCAAAGTGAACGTTTCCAACGTTATATCTTATTTAGAGACACAGGCCGGATTGCGTCAACCGCAAATAGAAGCTCAACTGTCGCAACCTTCGCACGGTGAACTAAAACCATTGTGGCTGTCTTTGACTCAGTATCAACTAGAAAATGGTGTTGTGAACTACGAGCATGACGATTCGGACAGTTTGAATGATAAAATTGATATGTCTCTGTACCTATTGCCGGATTACGTTTTGCTTTGTAACGTGACCGTACCGATTCACATAATGCCGGTGAACGATCAGCCTTTTAGATTATTGACGGACACACCCCAGATACAGGTCGTTCAAGGCGAGAATTATACGATAACGAAAAACGATTTGCTCACCGAAGACGCGGATACAAGTCCATCGGGTATATTGTACGATATCATTAGCGGCCCGACTCAAGGGAGGATCGTGATGATCGACAGGAACCAGACCGTCGATGAGGCGCAATCGATAAACAAGTTCACTCAAGACGATATAAACAGCGGTCGAATTATATACGAGCATTCCGGTATATTACAAACAGCCACGTTTTATTTCAGAGTGTGGGACGGTCAGTTCAAGCCCACGTACACGGTATTCACGATAGACGTTGTACCGGTAATACTGAACGCTACTTCGCTACATCCGATACATTTACAACAGGGTTCAAACGTGGCGGCCATCACTCCCGAACAGATATACGTAGAAACGAACGCGAGGATTTCTAAAGTCTGGTACAACATCACCCGTCCGCCGATACACGGTCTGATATACGTCAGCAGCAATCCCGTTACGTATTTCACTCATAAAGAATTGATCGAGAAAGTCGTTATTTACATGCAAAACGACATGACGACGGCCAATGATAGTTTTGAGTTGATCGCATGCGTACATAACAGTAATGCAACGCCGCCGTTTGCAATTGAGGTTGTAGTGCAACCTTTGATGACGCTGAGTGATTTGAGGGTAGAAAGCGAAAAAGTTAAGATCACCCTTAACACAATGGACGCGAGTAGCCTGGCTAAGCTGACAGTCAGCAATCCGATATACACGTTACTTAAGAAACCTAAATACGGCACTATAAAGAAAATAATTAGGAGCTCCGGTGAGAAGACCAGTGCAAGGGAGCGAGAAATAGCGTACTTCACGCACGAAGACCTCAAGGCGGGCGTCATATATTTTGTTATAAAGAAAAAACTATCGGATTTGAACGGCTTCGAAGACAGCTTCAGATTTTTGTTAGCGACCACGTTATTTCAGCCTGCGGCTGGTGAAGTTAAAATAATAATTGGTAATAGGCAGAAGAAGAATTTGCCGGGCCCCAATGATCCGGAGAGTCACGAAGGAATTCCAGTGGCGAATACTGAAACCGCTTCATACTACATGATGATATTAATGGCGCTTCTTGGTACTGTGCTAGCGATTGTAGTTATATTCGGTTTGATAAAATGTCGTCGTATATTGGCCCGCGACCAGAACGCCTTAGTAAAGATACACGGGCAAAGTCAGGGAGCGGTCGCTCCTATACCGCTGCCGAGGCCTCCTGACCACCTCATGCCCTCACCGAGTCAAGGAACACCACCGATTAAACGTTACGTATCATCAGAACAGTCGGTCCATACTGGTGCCAGTACGCCTTTACCGTCTGGAGGTAGCGTCGCGTGTAAGGTTACACCGTTAGCTGACGCAGGACTACCGGACCTTAATACTAGATACCCTTACGGAGCTGAGGACCATACTGACGCAGAAGACTGGAGCAGCTACGAGGCAAGCGAGTCTGCGTATCCGATCCGAGCGCCCGGTGTGGCACCTACGAACCCGATGCTGAGACGCAACCAATACTGGGTCTGA
Protein
MEVILILTMVTFGLAYDKASFYGASYISYPLQEAKGITDINFRFRTHLSDALLLLAAGKTDYCMIRLEKGRLKLNINLGGGESELFSPRGTLNDSQWHHVNIIRREANLTMKIDDSVVRKRFPGRFFELNIHFGIFLGGQGDFSELFLGHMENFRGCMEDVYYNGVKIIEKARSRSGSVRVEGVTWNCAPEFDADINSDISFIDEGAYLILPKINSRAGGRWQIEFKTIAQNAIVLYNAGGGRSDFLAVEILEGAVRVKMACGQILHTMRVNDGQWHKLHLLFNPSLIELSVDNIAMSTRIESGGTRYLDLSDSFYLGGIENEKRQRAFAKGIKAADSSIMGCIKPIEVDDKVFGLPSAVVTYGVSPKCVWYYPCHANPGNPPCVVQAVCEQHGVDDFTCKCDSDLCISPDYAEKYKVFSKSSSELELVALYPLTVQEGGVAVVTTQNIDVVLDHHKYGVRPSGVVFYVAQSPMHGRIAIDLSLQRNSPQFNYVETDGKTKQFFTLLDLSRDKVRYVHDGSENHQDAIVLDMELTQETKFTLPSYLQGRNTFVLHVNVTPVNDPPVLNLLPGKVLRLTQGTRKVITSDILKAEDPDTLTEDLLYTVLHGKNEANSGHIEMSGQPVDSFTQHDIDAGLISYVHGTNGEKQLNKTSLRLTLQVSDGIETSGPGILRISIVPLQVRLVNNTGLQLVHNSYAIITADNLTFATNADETNVQVKYDIVKPPQFGVVERLRVLDGTWQTVDSFTSEMVAFGAVRYMHLLGNPNHDEFKFKASVGSIRTNTLYDFRLTFIKLELYQSINEELVLNNTREAFISAQHLRFKTKPLALSNDRIVYTILRPPKYGILHLSSGKHHLQIHNTFTQQNIDADQLWYRLHRRAYSHIQDEFHFVVGATECENITGVMMIRHVPSSISFDHSPNRVRTTLERLQVSEGSRMVIPATHLNFRTDVVTNLIFNITHLPKHGKIEVITDMLKILRDNTTYFTLEELNSDRVYYAHDNSESRHDSFHFMALSPEPEDFQYVGVFHIDIILKNDNSPVRVNNNTFHIVHGGARLITARDLSYTDADLDTKSSDIVYTVQRSPKDPPNGGIFRADNPSEQIATFTQDDINKNLVLFKHQGKEYGKLAFWVSDGRYDVNGNLEIQASPPFIRMYPSNGSIMENGKAVVITPNDMQVDTNMNCLEEDIRYEVTLEPKHGSIEVGEGQGAYTFTQLDIAAGRVAYRHREPKTPSDQFRFKVMCLDTWGEGIYTVKIFPSSYWEPLRVQTNTPLFVEESTSVNITKDVLEIMHPQIEPSNIIYKVTEGPNHGWLEIASTLGSLEPENHNEEPIHTRVFDQSIINSNRLVYVQSGVNRTRDRIKMDVTNGIVWLRDIEMSIVIIPEHFYIMASNLTVVEGESISMRPELFKTITDYYRGKVVSYKVVEKPKYGKIMMGDQELNLLPVLKLNSGNIQYVNDGSEESSDAVKLVALTENNKESEPFYIRITIVAVNDETPIVAANTGLCVWEGGTFTFTRSELYVNDIDTPLENVTIRVVDIVSGYIAMKENIERAVDHFTQADIDKGKVIFVHKNGTKGKMIFNVTDGLHELSKITFLISTKSVSIKLIRKQNLRVFPLMREPLTNNILMSKCSDPSRSILYKIERAPTLGRLIMLNGENRHRSIKQFTQHDLNNSVVYYEHTHPFSDLYTNDSFVFTVETALAKPLTDQIFNIDISVSSGGLSKYVYIPQIKVQEGDKVPIKVNVSNVISYLETQAGLRQPQIEAQLSQPSHGELKPLWLSLTQYQLENGVVNYEHDDSDSLNDKIDMSLYLLPDYVLLCNVTVPIHIMPVNDQPFRLLTDTPQIQVVQGENYTITKNDLLTEDADTSPSGILYDIISGPTQGRIVMIDRNQTVDEAQSINKFTQDDINSGRIIYEHSGILQTATFYFRVWDGQFKPTYTVFTIDVVPVILNATSLHPIHLQQGSNVAAITPEQIYVETNARISKVWYNITRPPIHGLIYVSSNPVTYFTHKELIEKVVIYMQNDMTTANDSFELIACVHNSNATPPFAIEVVVQPLMTLSDLRVESEKVKITLNTMDASSLAKLTVSNPIYTLLKKPKYGTIKKIIRSSGEKTSAREREIAYFTHEDLKAGVIYFVIKKKLSDLNGFEDSFRFLLATTLFQPAAGEVKIIIGNRQKKNLPGPNDPESHEGIPVANTETASYYMMILMALLGTVLAIVVIFGLIKCRRILARDQNALVKIHGQSQGAVAPIPLPRPPDHLMPSPSQGTPPIKRYVSSEQSVHTGASTPLPSGGSVACKVTPLADAGLPDLNTRYPYGAEDHTDAEDWSSYEASESAYPIRAPGVAPTNPMLRRNQYWV

Summary

EMBL
NWSH01002345    PCG68480.1    KZ149976    PZC75924.1    KQ459605    KPI92023.1    + More
KQ460953    KPJ10285.1    AGBW02013270    OWR43702.1    PCG68481.1    BABH01017217    BABH01017218    KK852921    KDR13813.1    DS235170    EEB12838.1    GL448512    EFN84495.1    ADTU01012700    ADTU01012701    ADTU01012702    ADTU01012703    ADTU01012704    ADTU01012705    ADTU01012706    KQ982254    KYQ58763.1    KQ981820    KYN35163.1    KZ288252    PBC31025.1    KQ414617    KOC68137.1    KQ981082    KYN09691.1    KQ976424    KYM88292.1    QOIP01000002    RLU25320.1    KQ434977    KZC12862.1    KQ977600    KYN01465.1    KQ971307    EFA11160.2    GL887596    EGI70746.1    JXUM01028808    JXUM01028809    KQ560832    KXJ80689.1    LJIG01022715    KRT79088.1    CH477228    EAT47042.1    GEZM01103121    JAV51554.1    DS231816    EDS37561.1    AXCN02000809    AJVK01006042    AJVK01006043    AJVK01006044    AJVK01006045    ADMH02001920    ETN60505.1    AXCM01001334    APCN01000775    AAAB01008964    EAA12258.4    LBMM01001935    KMQ95514.1    GL435626    EFN72884.1    ATLV01023789    KE525346    KFB49549.1    NNAY01000582    OXU27555.1    CVRI01000038    CRK94421.1    GDHF01003088    JAI49226.1    CCAG010021407    GAMC01011349    JAB95206.1    CH940649    EDW64961.1    CH379060    EAL33645.2    JXJN01015308    CH479180    EDW28813.1    CP012523    ALC40192.1    ALC40229.1    JRES01000613    KNC29855.1    CH902620    EDV30836.2    CH963857    KRF98492.1    AE014134    AAF53672.3    AGB93074.1    AGB93075.1    CH933807    EDW11549.2    KRG02758.1    CH954179    EDV54779.2    GBXI01017387    JAC96904.1    EF428975    ABO20847.1    OUUW01000004    SPP79009.1    KK107200    EZA55503.1    CM002910    KMY90819.1    KMY90820.1    CM000158    EDW90288.2    KRJ99106.1    CH480822    EDW55629.1    CM000361    EDX05379.1    CH916368    EDW03389.1    ACPB03009252    SPP79010.1    GDIQ01033394    JAN61343.1    GDIQ01146952    JAL04774.1    GDIQ01146951    JAL04775.1    GDIQ01041942    JAN52795.1    GDIQ01029697    JAN65040.1    GDIQ01212378    JAK39347.1    GDIP01165208    GDIP01063629    LRGB01002190    JAM40086.1    KZS08600.1    GDIP01193560    JAJ29842.1    GDIP01214657    JAJ08745.1   
Pfam
PF02210   Laminin_G_2        + More
PF00054   Laminin_G_1
Interpro
IPR039005   CSPG_rpt        + More
IPR001791   Laminin_G       
IPR013320   ConA-like_dom_sf       
IPR000742   EGF-like_dom       
SUPFAM
SSF49899   SSF49899       
PDB
3R05     E-value=7.8732e-26,     Score=298

Ontologies

Topology

SignalP
Position:   1 - 15,         Likelihood:  0.729106
 
 
Length:
2353
Number of predicted TMHs:
1
Exp number of AAs in TMHs:
23.17807
Exp number, first 60 AAs:
0.34985
Total prob of N-in:
0.01665
outside
1  -  2196
TMhelix
2197  -  2219
inside
2220  -  2353
 
 

Population Genetic Test Statistics

Pi
27.715307
Theta
24.968235
Tajima's D
-1.044889
CLR
0.01581
CSRT
0.125043747812609
Interpretation
Uncertain
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